Comparison of selected surface topography parameters after the turning of Inconel 625 obtained by the additive techniques to the parameters of the material made by the traditional techniques

Archives of Mechanical Technology and Materials Pub Date : 2018-12-01 DOI:10.2478/amtm-2018-0013

Grobelny Pawel, Legutko Stanisław, L. Furmanski

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Abstract

Abstract The paper presents the possibilities of additive manufacturing of the selected alloy, Inconel, for production of ready-made elements. The results of surface topography examination of the material manufactured with the use of the device 557 RPMI working in the LDT technology (LDT = Laser Deposition Technology) have been compared to those of thecold drawn material. The surfacejust after manufacturing inthese two technologies has been compared to the one after machining by means of variable machining parameters. The surface roughness parameter, Sskis positive for all the surfaces of thesamplemade by the traditional technology, regardless of the feed. This means that most of the material is located close to the valleys. The surfaces are characterised by right-hand side asymmetry. In all the surfaces of the sample made by the additive technology, regardless of the feed value, the surface roughness parameter, Ssk, is negative, which means that most of the material is located close to the peaks.

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将采用增材加工技术得到的铬镍铁合金625车削后的表面形貌参数与传统加工工艺得到的材料参数进行了比较

摘要:本文介绍了增材制造的可能性，选择合金，因康内尔，生产现成的元素。用557 RPMI设备在LDT技术(LDT =激光沉积技术)下制造的材料的表面形貌检测结果与冷拉材料的表面形貌检测结果进行了比较。通过改变加工参数，对两种工艺加工后的表面进行了比较。表面粗糙度参数Sskis对于所有采用传统工艺制作的样品表面都是正的，与进给量无关。这意味着大部分物质位于山谷附近。这些表面的特征是右侧不对称。在采用添加剂技术制备的样品的所有表面中，无论进料值如何，表面粗糙度参数Ssk均为负值，这意味着大部分材料位于峰值附近。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Archives of Mechanical Technology and Materials

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